In an athletic ball server, a collapsible tripod supports an elongated inclined tray containing a linear array of balls. A gate at the low end of the tray cyclically releases balls one at a time from the array to gravity. One edge of a trampoline is pivoted on the tripod. The central portion of the trampoline is aligned to bounce a ball released from the tray. An eye-bolt is connected between the tripod and the trampoline allowing the angular position of the trampoline to be varied. By adjusting the eye-bolt, it is possible to achieve any desired trajectory of the bounced ball from a pop-up or slow pitch trajectory to a ground ball trajectory.
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19. An athletic ball server comprising a support structure, an elongated inclined tray mounted atop said support structure for supporting a linear array of athletic balls, a gate mounted at a low end of said tray, a trampoline-like platform aligned on a mechanically unimpeded path beneath said gate to receive and bounce a ball released to free-fall by gravity from said gate and angularly oriented to impart a trajectory to a ball bounced thereon away from said platform and means for activating said gate to continuously, automatically, cyclically release balls of the array one at a time from said gate to free-fall by gravity onto said platform.
8. An athletic ball server comprising a support structure, an elongated inclined tray mounted atop said support structure for supporting a linear array of athletic balls, a gate for cyclically releasing balls of the array one at a time from a low end of said tray to gravity, a trampoline-like platform mounted by a pivot at one edge thereof to said support structure with a central portion of said platform beneath said low end of said tray and aligned to bounce a ball released to gravity from said low end of said tray and first and second spaced apart adjustable linkages connected between said support structure and said platform, said first and second linkages being cooperable for setting an angular position of said platform to achieve a desired trajectory of a bounced ball therefrom.
1. An athletic ball server comprising a support structure, an elongated inclined tray mounted atop said support structure for supporting a linear array of athletic balls, a gate mounted at a low end of said tray for cyclically releasing balls of the array one at a time from said low end of said tray to gravity, a trampoline-like platform mounted by a pivot at one edge thereof to said support structure with a central portion of said platform beneath said low end of said tray and aligned to bounce a ball released to free-fall by gravity from said low end of said tray onto said platform and an adjustable linkage connected between said support structure and said platform for setting an angular position of a plane of said platform defined by a pivotal axis of said pivot and a distal edge of said platform to achieve a desired trajectory of a bounced ball therefrom.
12. An athletic ball server comprising a support structure, an elongated inclined tray mounted atop said support structure for supporting a linear array of athletic balls, a wheel mounted proximate a low end of said tray for rotation on a shaft transverse to said elongated tray, said wheel having a circumference aligned with and obstructing travel of the linear array of balls, said circumference having a slot for receiving balls one at a time therein from the linear array and for releasing the received ball at said low end of said tray as said wheel rotates, a drive motor connected to said shaft, a power source for energizing said drive motor to cyclically release balls of the array one at a time from said low end of said tray to gravity, a trampoline-like platform mounted by a pivot at one edge thereof to said support structure with a central portion of said platform beneath said low end of said tray and aligned to bounce a ball released to gravity from said low end of said tray and an adjustable linkage connected between said support structure and said platform for setting an angular position of a plane of said platform defined by a pivotal axis of said pivot and a distal edge of said platform to achieve a desired trajectory of a bounced ball therefrom.
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This invention relates generally to athletic equipment and more particularly concerns a server for athletic balls such as baseballs and softballs.
A variety of training devices have been developed for serving balls for batting practice. Some merely suspend a ball or support a ball in a fixed location in a strike zone. Such conditions rarely, if ever, occur in competition. Others pitch balls directly toward the batter by use of a lever or chute. This leaves little reaction time, especially for younger athletes. Some guide balls through a vertical chute onto a leaf spring to indirectly bounce the ball toward the batter. While this affords greater reaction time, the loss of downward velocity in the guide chute and minimal resilience afforded by the leaf spring limit the bounce trajectory severely. Consequently, the batter must stand too close to the server to take advantage of the reaction time. Another device uses a trampoline type bounce mechanism instead of a leaf spring to achieve a more vertical bounce, eliminating the need for the batter to track and time the approach of the ball to the hitting zone. This device does not solve the problems of loss of ball velocity in the chute and limited bounce and sacrifices tracking and timing skills which are needed under competitive conditions. Moreover, none of these devices can serve the dual functions of serving balls for batting and fielding practice since none of them provides adequate variably controllable trajectories over a range from slow pitch or pop-up to ground balls.
It is, therefore, an object of this invention to provide a ball server which tosses a ball toward a batter or fielder. Another object of this invention is to provide a ball server which can be used to simulate slow pitch ball trajectories, ground ball trajectories and various trajectories therebetween. A further object of this invention is to provide a ball server which affords reasonable reaction time to the batter or fielder. Yet another object of this invention is to provide a ball server which provides a relatively long distance trajectory in comparison to known bounce devices. It is also an object of this invention to provide a ball server which requires no contact of the ball with chutes or guides during its vertical descent. Still another object of this invention is to provide a ball server which is adjustable to permit a wide range of bounce trajectories. An additional object of this invention is to provide a ball server which automatically cyclically releases balls one at a time without need of an additional signal from the batter, fielder or coach.
In accordance with the invention, an athletic ball server is provided. The support structure of the server is preferably a collapsible tripod. An elongated inclined tray is mounted atop the structure and supports a linear array of balls. A gate at the low end of the tray cyclically releases balls one at a time from the array to gravity. One edge of a trampoline-like platform is mounted by a pivot to the support structure. A central portion of the platform lies beneath the low end of the tray and is aligned to bounce a ball which has been released. An adjustable linkage, preferably an eye-bolt, is connected between the support structure and the platform. The linkage allows the angular position of the plane defined by the pivotal axis of the pivot and the distal edge of the platform to be varied. By adjusting the length of the linkage, it is possible to achieve any desired trajectory of the bounced ball from a pop-up or slow pitch trajectory to a ground ball trajectory.
Preferably, the platform includes a frame with an elastic member stretched tautly on the frame. Most preferably, the elastic member is a plurality of rubber bands arranged in two weaves of transverse layers with a first weave being a first sequential alternating warp and weft assembly of rubber bands beginning at any corner of the frame and a second weave being a second sequential alternating assembly of warp and weft rubber bands beginning at any corner of the frame. The use of rubber bands provides a highly resilient platform with easily replaceable resilient components. Best angular control has been achieved using a second adjustable linkage, also preferably an eye-bolt, spaced apart from the first adjustable linkage and connected between the support structure and the platform. The first and second linkages are cooperable for setting the angular position of the platform to achieve the desired trajectory of the bounced ball.
The resilience or bounce of the platform can be maximized by third and fourth adjustable linkages connected in spaced apart relationship between the support structure and the distal edge of the platform. The length of the third and fourth linkages is adjusted to pull the distal edge of the platform downwardly and tauten the platform against the resistance offered by the first and second adjustable linkages. The third and fourth adjustable linkages may each also be turnbuckles.
The gate consists of a wheel mounted proximate the low end of the tray for rotation on a shaft which is transverse to the elongated tray. The wheel has its circumference aligned with and obstructing travel of the linear array of balls in the tray. The circumference has a slot for receiving balls one at a time from the linear array and for releasing the received ball at the low end of the tray as the wheel rotates. A drive motor is connected to the shaft and a power source energizes the drive motor to rotate the wheel at a known angular velocity so as to serve a desired number of balls per minute. Preferably, the wheel is formed from a pair of circular discs symmetrically spaced on the shaft from a plane aligned with the linear array of balls. A plurality of bearings are mounted for rotation on a plurality of horizontal pins connected between the discs and angularly displaced along the circumference. At least one of the bearings is always in contact with the lowest ball of the array not received in the slot during rotation of the wheel. This minimizes the resistance applied to the wheel by the balls, thus increasing the life of the motor and power source and decreasing the noise level of the server during operation. Most preferably, each of the bearings is itself a plurality of beads disposed on each of the pins.
Preferably, the tray is formed by a pair of rods spaced apart to support the array of balls therebetween with the wheel disposed between the rods. The shaft has its axis positioned below the rods and the slot has a depth such that the ball received in the slot maintains contact with the rods rather than the bottom of the slot. Thus, the wheel truly serves as a gate rather than a carriage. This reduces the weight driven by the motor and allows the balls to continue in a free-rolling pattern on the rods even while they are in the slot, resulting in a more smoothly operating, long life server.
Other objects and advantages of the invention will become apparent upon reading the following detailed description and upon reference to the drawings in which:
While the invention will be described in connection with a preferred embodiment, it will be understood that it is not intended to limit the invention to that embodiment. On the contrary, it is intended to cover all alternatives, modifications and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims.
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As the ball B falls on the path D, it is intercepted by the trampoline-like platform 80 illustrated in
In order to permit selection of the trajectory T of the ball B from the platform, the proximate edge 84 of the frame 83 is provided with a pair of hooks 97 and 98. eye-bolts 99 and 101 mounted on the angle iron 81 engage the hooks 97 and 98. Thus, by adjusting the length of the eye-bolts 99 and 101, the angular position of the platform 80 the axis of the hinges 88 and 89 can be varied. To further control and maximize the bounce of the platform 80, the distal corners of the platform 80 and the lower ends of the tripod legs 13 and 14 are provided with eyes 102 and 103 and 104 and 105, respectively. A pair of turnbuckles 106 and 107 connected between corresponding distal and tripod leg eyes 102 and 104 and 103 and 105, respectively, allow the tension of the platform 80 to be adjusted. That is, as the lengths of the turnbuckles 106 and 107 are shortened, the stress applied to the distal edge 85 of the platform 80 pulls the distal edge 85 downwardly to tauten the platform 80 against resistance from the angle setting eye-bolts 99 and 101 and increase the resiliency of the trampoline, resulting in maximum launch distances.
A prototype server for ten men's or twelve women's softballs or fourteen baseballs used a tray 30 approximately forty-eight inches long, a wheel 51 approximately 7½ inches in diameter with forty-two bearing pins 55 between discs 53 and 54 spaced one inch apart and an approximately 14 inch by 14 inch platform 80 with 23 pins on each edge. The support structure 10 was adjustable to permit the low end of the tray 30 to be set at between four and one-half and seven and one-half feet above ground. The slot 67 was sized to suit the ball used. To change from softballs to baseballs, for example, the wheel 51 was changed using the set screws 58. The same wheel 51 was used for either men's or women's softballs. A twelve volt, 12 rpm single speed motor with a six volt battery served six balls per minute. By proper coordination of the motor and power source, any desired service rate could be achieved.
The entire assembly can quickly be broken down for transport. The alligator clipped leads 63 and 64 are disconnected from the battery 65. The motor 59 and wheel 51 are removed from the tray 30 by disengaging the bar 51 from the lugs 62. The wing nuts 41 are removed and the tray 30 separated from the support plate 24. The bolts 82 are removed to disengage the platform 80 from the tripod 11. The pin 21 is positioned to shorten the support structure 10 and the tripod 11 collapsed. The entire disassembled server can be carried in an approximately 60"×16"×12" bag or case.
Thus, it is apparent that there has been provided, in accordance with the invention, an athletic ball server that fully satisfies the objects, aims and advantages set forth above. While the invention has been described in conjunction with a specific embodiment thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art and in light of the foregoing description. Accordingly, it is intended to embrace all such alternatives, modifications and variations as fall within the spirit of the appended claims.
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